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INST FIZICHESKOI CHIMII AKADE

Overview
  • Total Patents
    98
About

INST FIZICHESKOI CHIMII AKADE has a total of 98 patent applications. Its first patent ever was published in 1965. It filed its patents most often in USSR (Union of Socialist Soviet Republics). Its main competitors in its focus markets materials and metallurgy, surface technology and coating and environmental technology are BAOTOU RARE EARTH INST, XING AN CHENYI INDUSTRY AND TRADE CO LTD and SOKOL LUDVIK.

Patent filings in countries

World map showing INST FIZICHESKOI CHIMII AKADEs patent filings in countries
# Country Total Patents
#1 USSR (Union of Socialist Soviet Republics) 98

Patent filings per year

Chart showing INST FIZICHESKOI CHIMII AKADEs patent filings per year from 1900 to 2020

Top inventors

# Name Total Patents
#1 Toporov Yurij P 9
#2 Khromykh Viktor F 8
#3 Kareta Vyacheslav I 6
#4 Krapukhin Vladimir B 5
#5 Spitsyn V I 5
#6 Pronin Aleksandr Ya 4
#7 Korpusov Viktor N 4
#8 Krot N N 4
#9 Mikhovich Nikolaj S 4
#10 Muller Vladimir M 4

Latest patents

Publication Filing date Title
SU1564115A1 Method of obtaining pentalithium aluminate of beta-modification
SU1567518A1 Method of separating europium and ytterbium from other rare-earth elements
SU1539239A1 Method of alminium-plating in organic electrolytes
SU1562779A1 Method of determining the degree of grinding of non-hydrolyzed materials
SU1546513A1 Alloy for cathode protection anode
SU1504582A1 Apparatus for measuring parameters of adhesion interaction of particles in wind tunnel
SU1608530A1 Method of determining degree of defects of coatings
SU1500344A1 Method of manufacturing helical filter
SU1523159A1 Method of producing fine-dispersed powder
SU1495299A1 Method of producing lithium beryllate
SU1620142A1 Apparatus for fractionating granular material
SU1478100A1 Method for measuring metal electric resistance in corrosive fatigue
SU1538101A1 Solution for corrosion tests of copper alloys for tendency to selective corrosion
SU1469267A1 Arrangement for continuous thermal and chemical treatment of particular material
SU1500914A1 Method of determining distribution of the volume of pores by the size in porous materials
SU1446541A1 Method of testing metallic coatings for tendency towards forming filamentary crystals
SU1413488A1 Method of measuring the crack growth rate in corrosion-mechanical testing of metal structural materials
SU1476282A1 Plant for heat treating articles or loose material
SU1464118A1 Device for converting polarization states
SU1401075A1 Method of producing ester-hydride aluminium-poating electrolyte